Main menu

You are here

Pendulum Period

Clocks with quartz movements keep time more accurately than pendulum. As a result, quartz has largely replaced pendulums in modern clocks. But in their day, pendulum clocks were profoundly important. The first pendulum clocks were produced in the mid 17th century. They use ushered in a new era of accurate time keeping.

The reliability of pendulum clocks is based on the predictable relationship between the length of a pendulum and the time it takes the pendulum to complete one full swing. The illustration below explores the relationship between a pendulums period* as the force of gravity and its length is varied.

Length: 1 m

In the absence of outside forces, a weight** on a string will hang directly below the point from which the string is suspended. This is called the weight's resting or equilibrium position. If the weight is pulled to one side and let go, gravity will pull it back towards it’s equilibrium position. The momentum built up as the weight falls causes it to overshoot and swing up in the opposite direction. Gravity then acts to slow the weight until it stops and begins falling back down again. This back and forth motion repeats itself over and over as the momentum of the weight pulls it past the equilibrium position on each swing. This is the motion of a pendulum and is an example of simple harmonic motion.

A pendulum weight is called a bob. The point from which the bob is hanging is called the pivot point. The distance between the pivot point and the bob is the pendulum's length (L). The time it takes a bob displaced from equilibrium to to complete one full swing is the pendulum's period. The period of a pendulum is proportional to its length and is described by the equation:

P = 2π × √ L / g

where pi is 3.1415 and g is the force of gravity.

One thing to note about this equation is how few variables are involved. If the force of gravity (9.8 m/s2 on Earth) and the length of the pendulum is known, the pendulum can be used to tell time. The mass* of the bob does not matter, nor does the distance bob is displaced from the equilibrium position*. More detailed studies of pendulum physics requires knowledge of the bob’s mass, but only the distance between the pivot point and the bob is needed to use a pendulum for time keeping.

Filtered HTML

The Lexicon module will automatically mark terms that have been defined in the lexicon vocabulary with links to their descriptions. If there are certain phrases or sections of text that should be excluded from lexicon marking and linking, use the special markup, [no-lexicon] ... [/no-lexicon]. Additionally, these HTML elements will not be scanned: a, abbr, acronym, code, pre.